The present invention relates to bulkheads that are especially suited for mounting on a flatbed trailer.
Flatbed trailers are a common transport vehicle for hauling a wide range of items, ranging from heavy machinery to foundry products to packaged goods. Department of Transportation regulation §393.114 requires that every cargo-carrying vehicle be equipped with “a headerboard or similar device of sufficient strength to prevent load shifting and penetration or crushing of the driver's compartment.” This regulation defines the necessary structural aspects and dimensions of the headerboard, or bulkhead as it is referred to in the industry. The bulkhead is typically configured to be fastened to the cargo bed of the vehicle.
A typical wrap bulkhead and installation is depicted in
The typical bulkhead is formed of sheet metal, such as aluminum. A single sheet of metal is corrugated to form the front wall 15 and is bent at right angles to form the integral side walls 14 of the front panel 13. The top panel 12 is separately formed in a bending operation and welded or fastened to the front panel 13. In some bulkheads, the top panel is simply a flat metal sheet welded or an box beam extending across the top edge of the front panel. Many sheet metal bulkheads require various stiffening beams on the front panel and side walls.
Although the typical bulkhead is formed of sheet metal, forming the front panel can be problematic. In particular, forming the side walls of the front panel requires a separate bending step from the corrugation process. In addition, contouring the corners of the top panel, although not complicated, is an involved process, as well as accurately mating the top panel 12 to the front panel 13. In some bulkheads of the prior art, the top rail and front panel are connected by a corner casting.
Another problem experienced by the typical bulkhead is that the corner configuration limits the turning radius of the trailer in some applications. In particular, since the side walls 14 are typically formed at a substantially right angle bend relative to the front wall 15 of the front panel 13. Where the trailer kingpin is close to the cab of the hauling tractor, sharp turns will cause the corners of the front panel 13 to contact the trailer.
Consequently, there is a need for an improved bulkhead construction that overcomes the problems and shortcomings of the typical DOT-rated headerboard or front bulkhead.
A bulkhead for a transport vehicle, such as a flatbed trailer, includes a corrugated front panel, side panels attached to the sides of the front panel and a top panel attached to the upper edge of the front panel. In one embodiment, the side and top panels may be formed from two interlocking extrusions that are substantially identical whether used to form the top panel or the side panels. The extrusions include a first extrusion with a substantially forward facing wall that is angled and curved relative to the front panel. A second extrusion is connected to the first through a male-female interlocking connection along the mutual length of the extrusions. The second extrusion includes a side facing wall and a forward facing wall portion that merges with the forward facing wall of the first extrusion to form non-perpendicular side corners of the bulkhead.
In one feature of the invention, the same first and second extrusions may be used to form either a side panel or the top panel. In certain embodiments, the only difference between the first extrusions is that the extrusion is longer when used for the side panel. Both the transverse cross-sections of the two extrusions are the same whether used for a side panel or a top panel.
In one feature, the side and top panels combine to form open upper corners. These corners support a light assembly and corner bezel.
In another aspect, a decorative panel is mounted to and covering the corrugated front panel. The decorative panel may also include side edge flanges for engagement within slots defined along the length of the first extrusion.
One object of the invention is to provide a bulkhead that is more easily and efficiently manufactured. Another object is embodied in features that allow the use of common extrusions to form side and top panels for a bulkhead. In addition to meeting these objects, one benefit of the present invention is that it presents a more aerodynamic and maneuverable bulkhead for a flatbed trailer.
For the purposes of promoting an understanding of the principles of the invention, reference will now be made to the embodiments illustrated in the drawings and described in the following written specification. It is understood that no limitation to the scope of the invention is thereby intended. It is further understood that the present invention includes any alterations and modifications to the illustrated embodiments and includes further applications of the principles of the invention as would normally occur to one skilled in the art to which this invention pertains.
The present invention contemplates a bulkhead construction formed from a corrugated front panel and extruded elements that are combined to form the top panel and the side panels for the bulkhead. In the preferred embodiment, two extrusions are combined to form the top and side panels in a manner that enhances the structural strength and integrity of the panels. In addition, the combined extrusions present a curved side edge that avoids the turning radius interference problem of prior bulkheads. Moreover, the extrusions improve the aerodynamics of the bulkhead over prior art bulkheads without any commensurate increase in the complexity of the manufacture of the bulkhead
Referring to
In lieu of the side walls 14 found in prior bulkheads, the present invention contemplates a combined extrusion 25 that is attached to each side edge of the corrugated front panel 22. As best shown in
The first extrusion 27 includes an outer wall 51 and an inner wall 52, connected at one side by a side wall 54. The outer wall 51 faces substantially the same direction as the front panel 22—e.g., presents a substantially forward facing surface. The side wall 54 defines an interlocking rib 55 that extends along substantially the entire length of the extrusion and is used to connect the first extrusion to the second extrusion. The opposite side of the first extrusion 27 includes an attachment wall 57 that extends at an angle relative to the inner wall 52, as shown in
The first extrusion further includes an inner beam portion 60 that connects the attachment wall 57 to the outer wall 51. The inner beam portion 60 caps the side of the first extrusion opposite the side wall 54. In addition, the beam portion may define a groove 62 that faces outward, as shown in
As illustrated in
In a preferred embodiment, the decorative panel 35 is attached to the front panel 22 using an adhesive adapted to bond metal parts together. Other forms of attachment are also contemplated, although it is most preferable that the attachment method be such that the exposed surface 36 is not marred or disturbed.
The decorative panel 35 may carry any indicia desired by the owner of the trailer or may have a variety of aesthetically pleasing configurations, such as a mesh screen appearance. Moreover, the panel is preferably configured to be removed and replaced as desired. While a primary purpose of the panel 35 is cosmetic, the panel may also improve the aerodynamics of the bulkhead by covering the uneven corrugated surface of the front panel 22. Finally, the attachment of the decorative panel to the corrugated panel can increase the bending strength of the bulkhead.
As shown in the detail view of
The combined extrusion 25 further includes a second extrusion 29, as shown in
The side post portion 31 may be filled with any suitable material that can resist the compressive forces associated with driving a fastener through the post portion 31 into the side rail of the hauling trailer and that can resist shearing or buckling of the extrusion post portion 31 as the bulkhead twists under normal usage loads. For instance, a metal block may be fashioned to fit within the hollow interior 71 at the side post portion 31. The block is preferably sized to extend above the bottom edge of the front panel 22 and is welded at its top and bottom to the extrusion 25.
The second extrusion 29 includes an interlocking channel 79 defined in the inner wall 77. This interlocking channel 79 is configured to receive the interlocking rib 55 of the first extrusion 27. In the preferred embodiment, the interlocking components 55, 79 form a male-female connection. Moreover, the components preferably incorporate a dovetail configuration to prevent separation of the rib 55 from the channel 79. The combined extrusions 25 may be formed by sliding the rib 55 of the first extrusion 25 into the channel 79 of the second extrusion 27. The two extrusions may be permanently attached in any known manner, such as by welding the extrusions together at the interlocking rib and channel.
An end wall 81 connects the inner wall 77 and outer wall 75 to form the hollow interior 71. The other hollow interior 70 of the second extrusion 27 is formed by the outer wall 75, the inner wall 77 and the interior wall 73. As shown in the figures, the outer wall 75 is generally side facing (in relation to the forward facing front panel 22). The outer wall 75 is integral with a generally front facing angled portion 76 that blends into the angled outer wall 51 of the first extrusion. In general terms, the wall portions 51 and 76 combine to form a non-perpendicular corner. More particularly, the portion 76 and outer wall 51 are preferably curved at a large radius, such as about 8-9 inches. The angled/curved outer surface presented by the combined extrusions 25 improves the turning radius of the trailer by eliminating the “corner” material found in prior bulkheads. The outer surface of this feature also provides a more aerodynamic aspect than prior bulkheads. Moreover, this improved outer surface is created with no significant increase in overall dimension of the bulkhead.
As depicted in
Similarly, the first extrusion 27′ may be modified to account for its use as the top panel of the bulkhead 20. In particular, as can be discerned from
A further benefit provided by the common extrusions 25 and 25′ is the ability to create a top corner on the bulkhead that can be capped by a separate component without requiring the complicated sheet metal forming that accompanied prior bulkhead constructions. In one embodiment, a corner piece 90 is provided that extends between the second extrusion 29 of the side panels 33 to the second extrusion 29′ of the tip panel 32, as shown best in
In certain embodiments, the corner piece includes a rear band 93 that projects from the outer band 92 beyond the end of the end wall 81 of the extrusions 29/29′ and flares slightly outward, as illustrated in
In certain embodiments of the bulkhead construction, a corner plate may be fashioned to fill the triangular generally spherical segment shown in
The bulkhead 20 is configured for a variety of applications where a wrap bulkhead is used. Thus, the bulkhead may be used on an open flatbed or a flat bed that is closed by solid panel walls, such as a stake and panel kit. Alternatively, the bulkhead of the present invention may also be used in association with a retractable/extendable cover system, such as the tarping system C depicted in
In particular, in the embodiment shown in
The extrusion 100 includes a rear wall 110 that is modified to include an inwardly projecting lip 116 that forms a recess 114. The lip 116 is configured to support a seal 140 that extends around the entire perimeter of the bulkhead. The seal includes a clip portion 142 that is configured to clip onto the lip 116. The end of the lip may include an enlarged bead (not shown) to improve the attachment of the seal 140 to the lip 116. The seal includes a compressible body 144 that interfaces with the retractable cover front beam 120. The front beam 120 is preferably an extruded beam with a hollow interior 121. The front wall 128 of the beam 120 defines a recess 129 configured to snugly receive the compressible body 144 of the seal 140 when the front beam is locked to the trailing extrusion 100 in a known manner.
In a further feature of the invention, the front beam 120 defines a channel 125 in the side wall 124. The channel runs the entire length of the beam and opens at the bottom of the construct. This channel 125 serves as a drain channel for rain that collects between the extension 112 and the seal 140, particularly when the extrusion 100 is used as part of a top panel construction.
In a further variation of the invention, an embodiment is provided that increases the effective width of the bulkhead. In this embodiment, depicted in
The extension extrusion 150 may be attached to the trailing extrusion 29 in a variety of ways. In the preferred embodiment, the extrusion defines a T-slot 155 along its length. The slot is configured to receive a plurality of bolts 157 that extend through corresponding holes 160 in the trailing extrusion. A nut 158 is tightened onto each bolt to firmly attach the extension extrusion 150 to the trailing extrusion 29.
The extrusions described herein are preferably formed of aluminum in a known extrusion process. Each extrusion may be provided to the bulkhead manufacturer cut to a pre-determined length corresponding to the dimensions of a particular bulkhead. Alternatively, the extrusions may be provided in a length from which several pre-determined lengths can be cut by the bulkhead manufacturer. For instance, for a bulkhead requiring second extrusions in 84 inch lengths to form the side panels 33 and a second extrusion of 96 inch length to form the top panel 32 may be cut from a single extruded piece of 264 inches.
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same should be considered as illustrative and not restrictive in character. It is understood that only the preferred embodiments have been presented and that all changes, modifications and further applications that come within the spirit of the invention are desired to be protected.
Number | Name | Date | Kind |
---|---|---|---|
4947293 | Johnson et al. | Aug 1990 | A |
5287814 | Masai et al. | Feb 1994 | A |
5538313 | Henning | Jul 1996 | A |
5638973 | Dewey et al. | Jun 1997 | A |
5782549 | Glatzmeier et al. | Jul 1998 | A |
6065796 | Verduyn | May 2000 | A |
6196786 | Shinohara | Mar 2001 | B1 |
6312040 | Shinohara | Nov 2001 | B1 |
6419301 | Tuerk | Jul 2002 | B1 |
6470990 | Panoz | Oct 2002 | B1 |
6793273 | Tuerk | Sep 2004 | B1 |
6929311 | Booher | Aug 2005 | B2 |
7014252 | Booher | Mar 2006 | B2 |
7178860 | Lemmons | Feb 2007 | B2 |
7237932 | Ter-Hovhannissian | Jul 2007 | B2 |
7344178 | Lowry et al. | Mar 2008 | B2 |
7378000 | Lemmons | May 2008 | B2 |
20030011211 | Booher | Jan 2003 | A1 |
Number | Date | Country | |
---|---|---|---|
20070021048 A1 | Jan 2007 | US |